Evidence for direct interactions between the mercuric ion transporter (MerT) and mercuric reductase (MerA) from the Tn501mer operon

Evidence for direct interactions between the mercuric ion transporter (MerT) and mercuric reductase (MerA) from the Tn501mer operon

Mercuric ion resistance in bacteria requires transport of mercuric ions (Hg 2+ ) into the cytoplasmic compartment where they are reduced to the less toxic metallic mercury (Hg 0 ) by mercuric reductase (MR). The long-established model for the resistance mechanism predicts interactions between the in...

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Bibliographic Details
Published in:Biometals Vol. 21; no. 2; pp. 107 - 116
Main Authors: Schue, Mathieu, Glendinning, Kerry J., Hobman, Jon L., Brown, Nigel L.
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-04-2008
Subjects:
Biochemistry
Biomedical and Life Sciences
Cell Biology
Life Sciences
Medicine/Public Health
Microbiology
Pharmacology/Toxicology
Plant Physiology
Mercuric ion reductase
Protein–Protein interactions
Mercuric ion transport
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Summary:Mercuric ion resistance in bacteria requires transport of mercuric ions (Hg 2+ ) into the cytoplasmic compartment where they are reduced to the less toxic metallic mercury (Hg 0 ) by mercuric reductase (MR). The long-established model for the resistance mechanism predicts interactions between the inner membrane mercuric ion transporter, MerT, and the N-terminal domain of cytoplasmic MR, but attempts to demonstrate this interaction have thus far been unsuccessful. A recently developed bacterial two-hybrid protein interaction detection system was used to show that the N-terminal region of MR interacts with the cytoplasmic face of MerT. We also show that the cysteine residues on the cytoplasmic face of the MerT protein are required for maximal mercuric ion transport but not for the interaction with mercuric reductase.
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ISSN:0966-0844
1572-8773
DOI:10.1007/s10534-007-9097-4